EP1348821A2 - Fastening element, assembly and method for fastening a roofing membrane - Google Patents

Abstract

The attachment element (10) has a holding plate (12) that is applied to a roof sheet and an anchoring element (14) that is passed through the sheet to be anchored to a base so as to join the holding plate to the base. The holding plate has a metal grid and a number of anchoring elements are arranged at a distance apart in the longitudinal direction of the grid strips. Independent claims are also included for the following: an arrangement for attaching the edge of a roof sheet and a method of attaching roof sheets.

Description

The invention relates to a fastener for roofing membranes according to the preamble of claim 1. Furthermore, the invention is an arrangement and a method directed to the attachment of a roofing membrane (claims 6 and 10).

For the attachment of roofing membranes holding plates made of metal or plastic are known, which are formed over the entire surface or with star-shaped ribs and peripheral edge and an anchoring element. The anchoring element may be in one piece be with or separately from the holding plate, it may, for example. To a nail, a Act screw and / or an expansion dowel. To attach a roofing membrane is the holding plate placed on the roofing sheet and the anchoring element through the Roofing pushed through and anchored in a subsoil. This type of attachment A roofing membrane has several disadvantages: The penetration of the roofing membrane with the Anchoring element carries the risk of leakage. In addition, the roofing membrane Destroyed and may be caused by wind suction and / or thermal shrinkage and Stretching of the roofing membrane due to sun and weather influence at the penetration point starting to tear. Particularly negative for the strength of the roofing membrane affects if the roofing membrane has a reinforcing fabric, the piercing the anchoring element is destroyed selectively. By settlement phenomena Over time, a contact pressure of the holding plate on the roofing membrane subside, causing the roofing membrane no longer by friction between the retaining plate and the roofing membrane, but only via a bearing pressure at the Durchdringungsstelle is fixed. A tearing of the roofing membrane at the penetration point is then almost inevitable. Furthermore, there is a risk of a detachment second, the plate covering roofing membrane, which only outside of the plate through Welding or gluing is connected to the underlying roofing membrane. This Danger is particularly great with two laterally adjoining roofing membranes, their upper roofing membrane not in the entire overlap area, but only along its edge is connected to the lower roofing membrane.

The invention is based on the object, a fastening element for roofing membranes to propose that improves the durability of the attachment of the roofing membrane is.

This object is achieved by the features of claim 1. Of the Holding plate of the fastener according to the invention has a grid on or is designed as a grid. This allows embedding of the retaining plate in the roofing membrane by welding. This results in an intimate, positive and / or cohesive Connection of the roofing membrane with the retaining plate. Relative movements between the Roofing membrane and the holding plate, leading to a release of the roofing membrane from the holding plate lead would be avoided. The connection of the roofing membrane with the retaining plate and thus the attachment of the roofing membrane is permanent. Also, a tearing of the Roofing membrane at the point of penetration of the anchoring element through the Prevention of relative movement between the roofing membrane and the retaining plate or Anchoring element avoided. Is a second roofing membrane the holding plate Covering the first roofing membrane, the two roofing membranes can be laid welded together or with the holding plate or stick together, with by the lattice of the holding plate a material connection between the two roofing membranes also in the Area of the holding plate is given, which is a peeling of the upper roofing membrane avoids. Dynamic wind suction tests have shown that when fixing a Roofing membrane with fastening elements according to the invention, the roofing membrane from the Fixing element releases. The failure occurs by loosening the fastener from the ground and thus at significantly higher load on the roofing membrane. The Roof membrane remains undamaged.

In a preferred embodiment of the invention, the retaining plate on a metal grid. Metal has the advantage that it holds heat longer and conducts better than, for example, plastic and more easily welded to the roofing membrane. The connection of the holding plate with The roofing membrane is more intimate and solid.

An embodiment of the invention provides an elongated grid strip as a holding plate, having a number of anchoring elements. The anchoring elements are with Distance from each other in a longitudinal direction of the grid strip evenly or arranged unevenly distributed. This embodiment of the invention simplified and improves in particular the attachment of an edge of a roofing membrane, as the edge the roofing membrane can be fastened without interruption over its entire length.

As an anchoring element, an embodiment of the invention provides a hollow shaft, in which a pin-shaped fastener, so a screw, a nail or the like., sunk. The screw or nail can go straight into one Subsurface, for example, be screwed or hammered in wood. To anchor in Concrete, the anchoring element in addition to the hollow shaft an expansion dowel have, which is spread by the screw or the nail. The expansion dowel may be separate from or integral with the hollow shaft. By the sunk Arrangement of the pin-shaped fastener in the hollow shaft is a kick protection reached: If someone steps on the retaining plate of the fastener and the retaining plate lowers thereby, the pin-shaped fastener occurs through its recessed Arrangement not upwards out of the hollow shaft.

Preferably, the anchoring element is thermally insulated to a cold bridge between the ground and the retaining plate to avoid.

The arrangement with the features of claim 6 provides the use of the Grid strip as a holding plate having fastener for securing a Edge of a roofing membrane in front. The grid strip is along the edge of the roofing membrane so laid that it overlaps with a portion of its width the edge of the roofing membrane and with the remaining part of its width projecting beyond the edge of the roofing membrane. The fastener is arranged so that the anchoring elements outside the Roofing membrane next to its edge. In this way, the roofing membrane is not from penetrated by the anchoring elements, creating both the risk of leakage at the Durchdringungsstelle as well as the risk of tearing the roofing membrane the penetration point is eliminated. Furthermore, damage to the roofing membrane and a possibly existing reinforcing fabric of the roofing membrane avoided.

For fastening the edges of two roofing membranes, which are used to cover a larger roof area adjacent to each other or one behind the other, see one Embodiment of the invention that the second roof sheet the grid strip of the completely overlaps according to the invention fastener. In the overlap area are the two roof sheets together and with the grid strip of the fastener cohesively connected by gluing and / or welding. The overlap area The two roofing membranes is narrow, as the overlapped roofing membrane only a portion of the width of the grid strip occupies. Since the two roofing membranes in entire overlap area are interconnected, is the risk of Peeling the two roofing membranes from each other reduced.

For connecting the retaining plate of the fastening element according to the invention with the Roofing sheet provides claim 10, form the retaining plate as a metal grid and without Heat heat from the outside and thereby weld with the roofing membrane. It is therefore not as with conventional methods, the roofing membrane with a Gas burner or a hot air device heated, but the holding plate forming Metal grille is heated immediately and heats up the roofing membrane Softening or melting temperature. For heating, an electric current be passed through the metal plate forming the retaining plate, so that the Metal grille heated due to its electrical resistance.

A preferred embodiment of the method according to the invention provides an inductive or capacitive heating of the holding plate forming metal grid, for example, with a alternating electromagnetic field. Another preferred option is the Heating the metal grid with microwaves. These two embodiments of the fastening method according to the invention have the advantage that they the holding plate heat forming metal grids contactless, so the metal mesh can completely be covered by an overlying roofing membrane.

Figur 1

ein erstes Ausführungsbeispiel eines erfindungsgemäßen Befestigungselements in perspektivischer Darstellung;

Figur 2

die Verwendung des Befestigungselements aus Figur 1 in einer Achsschnittdarstellung; und

Figur 3

die Verwendung eines zweiten Ausführungsbeispiels eines erfindungsgemäßen Befestigungselements in Draufsicht.

The invention will be explained in more detail with reference to embodiments illustrated in the drawings. Show it:

FIG. 1

a first embodiment of a fastener according to the invention in a perspective view;

FIG. 2

the use of the fastener of Figure 1 in an axial sectional view; and

FIG. 3

the use of a second embodiment of a fastener according to the invention in plan view.

The illustrated in Figure 1, inventive fastener 10 has a Holding plate 12 and an anchoring element 14. The retaining plate 12 is as a metal grid formed with a center hole not visible in the drawing. In the illustrated and described embodiment, the holding plate 12 is circular, this shape but not mandatory.

The anchoring element 14 is thermally insulating made of plastic. It has a cylindrical hollow shaft 16, which tapers conically at one end and at its other end has an outward radial collar 18. In the hollow shaft 16, a screw 20 is added, the screw head 22 sunk in the hollow shaft 16 rests (Figure 2) and their threaded having a stem 24 the conical end 26 of the hollow shaft 16 protrudes. The screw 20 is part of the anchoring element 14. The anchoring element 14 is with its hollow shaft 16 pushed through the invisible center hole of the holding plate 12 so that the Radialbund 18 is seated on the metal grid of the holding plate 12.

The fastening of a roofing membrane 28 with the fastening element 10 is shown in FIG. 2 shown. The roofing membrane 28 consists, for example. Of bitumen, they can with a not shown Reinforcing fabric to be reinforced. The roofing membrane 28 is on an insulating layer 30 launched. There are fasteners 10, of which in Figure 2 a is shown distributed over the surface of the roofing membrane 28. The Fastener 10 is connected to the threaded shaft 24 of the Screw 20 advanced through the roofing membrane 28 and the insulating layer 30 pushed through. Of the Hollow shaft 16 penetrates the roofing sheet 28 and penetrates into the insulating layer 30. Of the Holding plate 12, of which in the sectional view of Figure 2 only individual wires as Points are visible, lies on the roofing membrane 28. To anchor the Fastener 10, the screw 20 in a substrate, not shown, on which the insulating layer 30 rests, screwed. For example, off in a subsoil Wood, the screw 20 can be screwed directly. For anchoring in eg. Concrete, the screw 20 is screwed into an expansion dowel, not shown, the previously introduced into a borehole in the underground. This type of anchorage is known per se and should therefore not be explained here. The dowel can separately from the hollow shaft 16 or integral part of the hollow shaft 16 of the Anchoring element 14 be.

The roofing membrane 28 is welded by heating with the retaining plate 12. By the Welding is designed as a metal grid holding plate 12 positive and / or cohesive embedded in the roofing membrane 28. The roofing membrane 28 can also be used with the retaining plate 12 are glued. If the hollow shaft 16 is not covered, the Screw 20 after welding of the retaining plate 12 with the roofing membrane 28 in be screwed in the ground.

Due to the sunk arrangement of the screw 20 in the hollow shaft 16 is a step protection If someone steps on the retaining plate 12 of the fastener 10 and pushes it while the insulating layer 30 together, so penetrates the hollow shaft 16 of the anchoring element 14 deeper in the insulating layer 30, without the screw 20 at the top of the Hollow shaft 16 exits.

In Figure 2 roofing membranes 28, 32 laid two layers, d. H. on the roofing membrane 28 is a second roof liner 32 placed and welded or glued to it. In the area of Holding plates 12 are the roof sheets 28, 32 by welding or gluing through the the holding plate 12 forming metal mesh with each other and with the retaining plate 12th positively and / or materially connected. The opening of the hollow shaft 16 is of the covered second roof sheet 32.

The welding of the roofing membranes 28, 32 in the region of the retaining plate 12 with each other and with the retaining plate 12 can in a conventional manner by heating the roofing membranes 28, 32 and the holding plate 12 with, for example, hot air or a gas burner respectively. An inventive method provides that designed as a metal grid Holding plate 12 inductive or capacitive by the action of an electromagnetic Alternating field or to heat with microwaves (not shown). These types of Heating has the advantage that they act without contact and as a result easily through the holding plate 12 overlapping second roof liner 32 therethrough can be performed.

For the following explanation of Figure 3 are consistent with Figures 1 and 2 Components the same reference numerals as used in Figures 1 and 2. This in Figure 3 shown, fastener 10 according to the invention has a straight Metal grid strip as holding plate 12 on. With distances in the longitudinal direction of the Holding plate 12 anchoring elements 14 are arranged, the holding plate 12th penetrate. The anchoring elements 14 correspond to those of Figures 1 and 2. Of the anchoring elements 14 is in Figure 3 because of the representation in plan view the radial collar 18 and the screws 20 with the screw heads 24 visible.

The fastener 10 of Figure 3 is used in particular for attachment of a Edge of a roofing membrane 34 or the edges of two adjacently laid Roofing membranes 34, 36. The fastener 10 is with his as Metal grid strip trained holding plate 12 so on the edge 38 of a roofing membrane 34 launched that the retaining plate 12, the edge 38 partially covered and partially over the roof sheet 34 protrudes. The anchoring elements 14 are located outside the Roofing 34 next to the edge 38. The roofing membrane 34 is therefore not of the Anchoring elements 14 penetrated. Anchoring takes place in the same way as explained above for Figure 2.

The second roofing membrane 36 is laid so that it completely covers the holding plate 12. The roof sheets 34, 36 are in the overlapping area with each other and with the holding plate 12 is preferably connected by welding as shown above to Figure 2 has been explained.

Claims (13)

Fastening element for roofing membranes, with an attachable to a roof sheet holding plate and the roofing sheet penetrating, anchored in a ground, the retaining plate with the ground connecting anchoring element, characterized in that the retaining plate (12) has a grid. Fastening element according to claim 1, characterized in that the retaining plate (12) has a metal grid. Fastening element according to claim 1, characterized in that the fastening element (10) has a grid strip as a holding plate (12) and a number of anchoring elements (14) which are arranged distributed at a distance from each other in a longitudinal direction of the grid strip comprises. Fastening element according to claim 1, characterized in that the anchoring element (14) has a hollow shaft (16) in which a screw (20), a nail or the like recessed sunk. Fastening element according to claim 1, characterized in that the anchoring element (14) thermally insulated. Arrangement for fastening an edge of a roofing membrane, characterized in that the arrangement comprises a grid strip as a holding plate (12) and a number of anchoring elements (14) that the grid strip along the edge (38) of the roofing membrane (34) the edge (38) of Roofing sheet (34) partially overlapping and partly over the edge of the roofing membrane (34) rests on the edge (38) of the roofing membrane (34) or partially over the edge (38) of the roofing membrane (34) projecting into the edge (38) Roof membrane (34) is embedded, and that one of the anchoring elements (14) spaced apart in a longitudinal direction of the lattice strip outside the roofing membrane (34) next to the edge (38) are arranged and anchored in a substrate and connect the grid strip to the ground , Arrangement according to claim 6, characterized in that the holding plate (12) forming grid strip with the roofing membrane (34) is positively and / or materially connected. Arrangement according to claim 6, characterized in that the holding plate (12) forming the grid strip consists of metal. Arrangement according to claim 6, characterized in that the lattice strip forming the holding plate (12) is completely overlapped by a second roofing sheet (36) which adjoins the first roofing sheet (34), and in that the roofing sheets (34, 36) in FIG Overlap area with each other and with the holding plate (12) forming lattice strips are positively and / or materially connected. Method for fastening a roofing sheet by means of a fastening element which has a plate and an anchoring element, wherein the retaining plate is placed on the roofing sheet and the anchoring element anchoring the retaining plate with a substrate is anchored in the substrate, characterized in that the retaining plate (12) is a metal grid and that the metal grid is heated without heat from the outside and thereby welded to the roofing membrane (28, 32, 34, 36). A method according to claim 10, characterized in that the metal grid flows through for heating of electric current and is heated as an electrical resistance. A method according to claim 10, characterized in that the metal grid is heated inductively or capacitively. A method according to claim 10, characterized in that the metal grid is heated with microwaves.

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